Is this collision elastic or inelastic?

Question

I have a stationary cart of varying mass placed at a set location on a linear track. I have another cart, the incident cart which has a wound up spring to launch it from a wall on the same linear track.

When I release the spring, the incident cart goes ahead and collides with the stationary cart, causing then the stationary cart to move.

A few questions relating to this phenomenon:

• Is this collision inelastic or elastic? I'm thinking it is elastic because of the perfect transfer of energy.

• How can I explain that when the mass goes up the velocity of the stationary cart after collision goes down (that relates to the conservation of momentum)?

Thanks

Answer 1

In reality, you can never have a 100% elastic collision. There's always energy dissipated in the form of heat or used in the distortion of the colliding bodies (think of a tennis ball in slow motion: it's distorted in the moment of impact and then goes back to its original shape). But, in this case, as the dissipated energy might be infinitesimal, I believe you can make the approximation that the energy is conserved.

Regarding the second question, there is conservation of momentum: the product of mass times the initial velocity of the incident cart ($\ p_{i1}=m_1v_{i1}$) equals the sum of mass times final velocity of each cart ($\ p_{f1} + p_{f2}= m_1v_{f1}+m_2v_{f2}$). So, if cart 2 has a bigger mass (m2), in order to mantain the value of $\ p_{f1} + p_{f2} = p_{i1}$, the final velocity of the stationary cart (vf2) has to be smaller.